FPGAs (Field Programmable Gate Array)
FPGAs (Field-Programmable Gate Arrays) deliver hardware-level parallel processing with post-manufacturing reconfigurability — enabling engineers to implement custom digital logic, DSP pipelines, and hardware accelerators without ASIC tape-out costs. Octatronics indexes FPGA devices from AMD/Xilinx (Artix, Kintex, Virtex, Zynq, Versal), Intel/Altera (Cyclone, Stratix, Agilex), Lattice (CrossLink-NX, CertusPro-NX), Efinix (Trion, Titanium), and Microchip/Microsemi (PolarFire, IGLOO).
Product Series & Base Models
Navigate by model series to compare ordering variants and technical specifications within the FPGAs (Field Programmable Gate Array) family.
XCKU5
XCKU5 variants from AMD/Xilinx
XCKU060
XCKU060 variants from AMD/Xilinx
XC7S75
XC7S75 variants from AMD/Xilinx
XC7S6
XC7S6 variants from AMD/Xilinx
XC7S50
XC7S50 variants from AMD/Xilinx
XC7S25
XC7S25 variants from AMD/Xilinx
XC7S15
XC7S15 variants from AMD/Xilinx
XC7S100
XC7S100 variants from AMD/Xilinx
XC7K70
XC7K70 variants from AMD/Xilinx
XC7K410
XC7K410 variants from AMD/Xilinx
XC7K325
XC7K325 variants from AMD/Xilinx
XC7K160
XC7K160 variants from AMD/Xilinx
Browse FPGAs (Field Programmable Gate Array) Products
| PART NUMBER | MANUFACTURER | DESCRIPTION | STOCK | QTY / ACTION |
|---|---|---|---|---|
| LCMXO2-1200ZE-1TG100I | Lattice Semiconductor | Package / Case: 100-LQFP | Mounting Type: Surface Mount | Supply Voltage: 1.14V ~ 1.26V | Operating Temperature: -40°C ~ 100°C (TJ) | 629 | |
| LCMXO2-2000HC-5TG100C | Lattice Semiconductor | Package / Case: 100-LQFP | Mounting Type: Surface Mount | Supply Voltage: 2.375V ~ 3.465V | Operating Temperature: 0°C ~ 85°C (TJ) | 147 | |
| LCMXO3LF-4300C-6BG324C | Lattice Semiconductor | Package / Case: 324-LFBGA | Mounting Type: Surface Mount | Supply Voltage: 2.375V ~ 3.465V | Operating Temperature: 0°C ~ 85°C (TJ) | 10 | |
| LIFCL-17-9MG121C | Lattice Semiconductor | Package / Case: 121-VFBGA, CSPBGA | Mounting Type: Surface Mount | Supply Voltage: 0.95V ~ 1.05V | Operating Temperature: 0°C ~ 85°C (TJ) | 3,430 | |
| LIFCL-17-8MG121C | Lattice Semiconductor | Package / Case: 121-VFBGA, CSPBGA | Mounting Type: Surface Mount | Supply Voltage: 0.95V ~ 1.05V | Operating Temperature: 0°C ~ 85°C (TJ) | 7,760 | |
| LCMXO2-640ZE-1MG132C | Lattice Semiconductor | Package / Case: 132-LFBGA, CSPBGA | Mounting Type: Surface Mount | Supply Voltage: 1.14V ~ 1.26V | Operating Temperature: 0°C ~ 85°C (TJ) | 196 | |
| LCMXO2-2000ZE-1TG144I | Lattice Semiconductor | Package / Case: 144-LQFP | Mounting Type: Surface Mount | Supply Voltage: 1.14V ~ 1.26V | Operating Temperature: -40°C ~ 100°C (TJ) | 114 | |
| LCMXO2-2000ZE-1TG100C | Lattice Semiconductor | Package / Case: 100-LQFP | Mounting Type: Surface Mount | Supply Voltage: 1.14V ~ 1.26V | Operating Temperature: 0°C ~ 85°C (TJ) | 6,100 |
How to Choose FPGAs (Field Programmable Gate Array)
A practical selection framework for FPGAs (Field Programmable Gate Array) covering specifications, packaging, lifecycle, and sourcing on Octatronics.
Define electrical and environmental requirements
Start with the required function and operating conditions for FPGAs (Field Programmable Gate Array), then lock in critical parameters such as core architecture, memory, peripherals, package, and operating voltage. Match these against datasheet limits, not catalog summaries alone.
Validate package and land pattern compatibility
Confirm the FPGAs (Field Programmable Gate Array) package matches your PCB footprint, pick-and-place constraints, and moisture sensitivity handling. Verify reel/tape or tube packaging for production.
Check lifecycle, compliance, and alternates
Review lifecycle status (Active, NRND, EOL), RoHS, and approved alternate sources for FPGAs (Field Programmable Gate Array) before committing to high-volume builds. Use Octatronics cross-reference data when a drop-in replacement is needed.
Compare manufacturers and request pricing
Filter FPGAs (Field Programmable Gate Array) by manufacturers such as AMD/Xilinx and Lattice Semiconductor, compare key specs side by side, then submit an RFQ with quantity, target delivery, and traceability requirements.
Related Selection Resources
Top FPGAs (Field Programmable Gate Array) Manufacturers
AMD/Xilinx
AMD/Xilinx FPGAs (Field Programmable Gate Array) products are available for part-number review, stock checks, and RFQ support.
1,181 productsLattice Semiconductor
Lattice Semiconductor FPGAs (Field Programmable Gate Array) products are available for part-number review, stock checks, and RFQ support.
113 productsEfinix
Efinix FPGAs (Field Programmable Gate Array) products are available for part-number review, stock checks, and RFQ support.
25 products
Microchip Technology
Microchip Technology FPGAs (Field Programmable Gate Array) products are available for part-number review, stock checks, and RFQ support.
67,462 products
Intel
Intel FPGAs (Field Programmable Gate Array) products are available for part-number review, stock checks, and RFQ support.
345 productsAbout FPGAs (Field Programmable Gate Array)
Related Applications
Discover industry applications that commonly use FPGAs (Field Programmable Gate Array) components.
Frequently Asked Questions
Octatronics can help source a wide range of FPGAs (Field Programmable Gate Array) from major manufacturers worldwide, including active production parts, long-lead-time items, and hard-to-find components.
Yes. You can submit a single part number or upload a BOM with multiple parts. Our team will check stock, date code, lead time, and pricing for each item.
Availability depends on the specific part number and supplier source. For important orders, buyers can request packaging photos, labels, date code information, and traceability documents.
Yes. Octatronics supports sourcing for active, end-of-life, obsolete, and hard-to-find components through our global supplier network.
Please provide the part number, manufacturer, quantity, required date code, target price, delivery country, and whether original packaging or COC is required.
Articles & Technology
View All →
How to Choose Electronic Components for Reliable Hardware Design
Learn how to choose electronic components for reliable hardware design, including specifications, lifecycle status, sourcing risks, quality checks, and BOM optimization.
Pin-to-Pin Replacement Parts: How to Check Compatibility Before Sourcing
When an original electronic component becomes obsolete, unavailable, or too expensive, a pin-to-pin replacement part can help avoid PCB redesign and keep production or repair projects moving. However, pin-to-pin compatibility does not automatically mean the part is a safe drop-in replacement. This guide explains how to check package, footprint, pinout, electrical ratings, thermal performance, timing behavior, firmware requirements, compliance status, and lifecycle risk before sourcing replacement parts. It also provides a practical checklist to help engineers, buyers, and maintenance teams reduce sourcing mistakes and verify compatibility before purchase.
How to Find Pin-Compatible Alternatives for Obsolete ICs
Finding a pin-compatible alternative for an obsolete IC is not just about matching the package. It requires a structured review of pinout, footprint, electrical parameters, functional behavior, lifecycle status, sourcing reliability, and sample validation.
STM32F103C8T6 Datasheet, Pinout, Specs, and LQFP-48 Package Guide
STM32F103C8T6 is a popular STMicroelectronics 32-bit ARM Cortex-M3 microcontroller in an LQFP-48 package. This guide summarizes its datasheet, pinout groups, key specifications, package details, applications, and sourcing notes.